Fabrication of MOF-808(Zr) with abundant defects by cleaving ZrAO bond for oxidative desulfurization of fuel oil

Yulong Gu; Hongsi Luo; Wei Xu; Wei Zhou; Yinyong Sun

Journal of Industrial and Engineering Chemistry, Vol.105, 435-445, January, 2022

DOI10.1016/j.jiec.2021.10.005 Export Citation

Fabrication of MOF-808(Zr) with abundant defects by cleaving ZrAO bond for oxidative desulfurization of fuel oil

Yulong Gu, Hongsi Luo, Wei Xu¹, Wei Zhou², and Yinyong Sun^†

MIIT Key Laboratory of Critical Materials Technology for New Energy Conversion and Storage, School of Chemistry and Chemical Engineering, Harbin Institute of Technology, Harbin 150001, China
¹State Key Lab of Inorganic Synthesis and Preparative Chemistry, College of Chemistry, Jilin University, Changchun 130012, China
²Key Laboratory of Functional Inorganic Material Chemistry, Heilongjiang University, Ministry of Education, Harbin 150080, China

E-mail:

Creation of defects in metal.organic frameworks (MOFs) has been demonstrated to be of significance for many potential applications. MOF-808(Zr), as an important member of MOFs, has attracted extensive attention due to its advantages such as high stability, large surface area and pore size. Therefore, the development of defective MOF-808(Zr) is of great interest. In this contribution, we report that MOF-808(Zr) with abundant defects can be fabricated by the fracture of partial Zr-O bonds in its structure by the treatment of NH4HCO3 solution. During the treatment, the effect of NH4HCO3 concentration and treatment time on the structural properties of MOF-808(Zr) was investigated. The catalytic performance of obtained materials was evaluated by the oxidative desulfurization reaction of dibenzothiophene. The results revealed that MOF-808(Zr) obtained under the conditions of 0.08 M NH4HCO3 and treatment time of 10 min exhibited superior catalytic activity (124.8 mmol/h/g) at 60 °C due to the formation of rich defect sites in MOF-808(Zr).

Keywords:MOF-808(Zr);Defect sites;Oxidative desulfurization;Dibenzothiophene;Fuel oil

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[Referenced By]

[1] Dissegna S, Epp K, Heinz WR, Kieslich G, Fischer RA, Adv. Mater., 30, 170450 (2018)

[2] Fang Z, Bueken B, De Vos DE, Fischer RA, Angew. Chem.-Int. Edit., 54, 7234 (2015)

[3] Bavykina A, Kolobov N, Khan IS, Bau JA, Ramirez A, Gascon J, Chem. Rev., 120(16), 8468 (2020)

[4] Kirchon A, Feng L, Drake HF, Joseph EA, Zhou HC, Chem. Soc. Rev., 47, 8611 (2018)

[5] Maurin G, Serre C, Cooper A, Ferey G, Chem. Soc. Rev., 46, 3104 (2017)

[6] Kaur M, Kumar S, Yusuf M, Lee L, Brown RJC, Kim KH, Malik AK, Coord. Chem. Rev., 449, 214214 (2021)

[7] Huang X, Zhang ST, Tang YJ, Zhang XY, Bai Y, Pang H, Coord. Chem. Rev., 449, 214216 (2021)

[8] Bai Y, Dou Y, Xie LH, Rutledge W, Li JR, Zhou HC, Chem. Soc. Rev., 45, 2327 (2016)

[9] Canivet J, Vandichel M, Farrusseng D, Dalton Trans., 45, 4090 (2016)

[10] Taddei M, Coord. Chem. Rev., 343, 1 (2017)

[11] Taddei M, Schukraft GM, Warwick MEA, Tiana D, McPherson MJ, Jones DR, Petit C, J. Mater. Chem. A, 7, 23781 (2019)

[12] Fonseca J, Gong TH, Li J, Jiang HL, J. Mate. Chem. A, 9, 10562 (2021)

[13] Wang X, Xu Z, Li L, Zhao Y, Su R, Liang G, YAng B, Miao Y, Meng W, Luan Z, Li K, Xi H, Zou R, ACS Appl. Nano Mater., 3, 11442 (2020)

[14] Moon SY, Liu Y, Hupp JT, Farha OK, Angew. Chem.-Int. Edit., 54, 6795 (2015)

[15] Ji PF, Solomon JB, Lin ZK, Johnson A, Jordan RF, Lin WB, J. Am. Chem. Soc., 139(33), 11325 (2017)

[16] Jiang JC, Gandara F, Zhang YB, Na K, Yaghi OM, Klemperer WG, J. Am. Chem. Soc., 136(37), 12844 (2014)

[17] Ji PF, Feng XY, Veroneau SS, Song Y, Lin WB, J. Am. Chem. Soc., 139(44), 15600 (2017)

[18] Peng Y, Huang H, Zhang Y, Kang C, Chen S, Song L, Liu D, Zhong CL, Nat. Commun., 9, 187 (2018)

[19] Gil-San-Milian R, Lopez-Maya E, Platero-Prats AE, Torres-Perez V, Delgado P, Augustyniak AW, Kim MK, Lee HW, Ryu SG, Navarro JAR, J. Am. Chem. Soc., 141(30), 11801 (2019)

[20] Xiang W, Zhang Y, Chen Y, Liu CJ, Tu X, J. Mater. Chem. A, 8, 21526 (2020)

[21] Liu KOKX, Chen Z, Ma K, Idrees KB, Cao R, Zhang X, Islamoglu T, Liu Y, Farha OK, Chem. Mater., 33, 1444 (2021)

[22] Yan XD, Wang K, Xu XC, Wang SH, Ning Q, Xiao WM, Zhang N, Chen ZJ, Chen C, Inorg. Chem., 57(14), 8033 (2018)

[23] Valekar AH, Lee M, Yoon JW, Kwak J, Hong DY, Oh KR, Cha GY, Kwon YU, Jung J, Chang JS, Hwang YK, ACS Catal., 10, 3720 (2020)

[24] Gu Y, Ye G, Xu W, Zhou W, Sun Y, ChemistrySelect, 5, 244 (2020)

[25] Jia C, Cirujano FG, Bueken B, Claes B, Jonckheere D, Van Geem KM, De Vos D, ChemSusChem, 12, 1256 (2019)

[26] Zheng HQ, Liu CY, Zeng XY, Chen J, Lu J, Lin RG, Cao R, Lin ZJ, Su JW, Inorg. Chem., 57(15), 9096 (2018)

[27] Gu Y, Xu W, Sun Y, Catal. Today, 377, 213 (2020)

[28] Li X, HuanG L, Kochubei A, Huang J, Shen W, Xu H, Li Q, ChemSusChem, 13, 5073 (2020)

[29] Furukawa H, Gandara F, Zhang YB, Jiang JC, Queen WL, Hudson MR, Yaghi OM, J. Am. Chem. Soc., 136(11), 4369 (2014)

[30] Ye G, Gu Y, Zhou W, Xu W, Sun Y, ACS Catal., 10, 2384 (2020)

[31] Wang C, Li AR, Ma YL, Fuel Process. Technol., 212, 106629 (2021)

[32] Cui J, Wang G, Liu W, Ke P, Tian Q, Li X, Tian Y, Fuel, 290, 120066 (2021)

[33] Xun SH, Ti QT, Jiao ZX, Wu LL, He MQ, Chen LL, Zhu LH, Zhu WS, Li HM, Ind. Eng. Chem. Res., 59(41), 18471 (2020)

[34] Wang H, Tang M, Shi F, Ding R, Wang L, Wu J, Li X, Liu Z, Lv B, ACS Appl. Mater. Interfaces, 12, 38140 (2020)

[35] Zeng XY, Xiao XY, Li Y, Chen JY, Wang HL, Appl. Catal. B: Environ., 209, 98 (2017)

[36] Ye G, Hu LL, Gu YL, Lancelot C, Rives A, Lamonier C, Nuns N, Marinova M, Xu W, Sun YY, J. Mater. Chem. A, 8, 19396 (2020)

[37] Yu ZD, Lu XH, Xun SH, He MQ, Zhu LH, Chen HF, Yuan MM, Fan L, Zhu WS, Fuel, 307, 121877 (2021)

[38] Li X, Gu Y, Chu H, Ye G, Zhou W, Xu W, Sun Y, Appl. Catal. A: Gen., 584, 117152 (2019)

[39] Li HP, Zhu WS, Zhu SW, Xia JX, Chang YH, Jiang W, Zhang M, Zhou YW, Li HM, AIChE J., 62(6), 2087 (2016)

[40] Zhang M, Liao W, Wei Y, Wang C, Fu Y, Gao Y, Zhu L, Zhu W, Li H, ACS Appl. Nano Mater, 4, 1085 (2021)

[41] Li JR, Yang Z, Li SW, Jin QP, Zhao JS, J. Ind. Eng. Chem., 82, 1 (2019)

[42] Ma WW, Xu Y, Ma KW, Zhang H, Appl. Catal. A: Gen., 526, 147 (2016)

[43] Wang S, Zhang X, Chang X, Zong MY, Fan CZ, Guo DX, Xu J, Wang DH, Bu XH, Appl. Catal. B: Environ., 298, 120594 (2021)

[44] Hao LD, Hurlock MJ, Li XY, Ding GD, Kriegsman KW, Guo XF, Zhang Q, Catal. Today, 350, 64 (2020)

[45] Ye G, Zhang D, Li X, Leng K, Zhang W, Ma J, Sun Y, Xu W, Ma S, ACS Appl. Mater. Interfaces, 9, 34937 (2017)

[46] Granadeiro CM, Ribeiro SO, Karmaoui M, Valenca R, Ribeiro JC, de Castro B, Cunha-Silva L, Balula SS, Chem. Commun., 5, 13818 (2015)

[47] Gu Y, Li X, Ye G, Gao Z, Xu W, Sun Y, New J. Chem., 45, 9591 (2021)

[48] Hao L, Stoian S, Weddle L, Zhang Q, Green Chem., 22, 6351 (2020)

[49] Ye G, Wang HL, Chen WX, Chu HQ, Wei JS, Wang DG, Wang J, Li YD, Angew. Chem.-Int. Edit., 60, 20318 (2021)

[50] Zheng HQ, Zeng YN, Chen J, Lin RG, Zhuang WE, Cao R, Lin ZJ, Inorg. Chem., 58(10), 6983 (2019)

[51] Fu G, Bueken B, De Vos D, Small Methods, 2, 180020 (2018)

[52] Bellusci M, Guglielmi P, Masi A, Padella F, Singh G, Yaacoub N, Peddis D, Secci D, Inorg. Chem., 57(4), 1806 (2018)

[53] Zhou YY, Gao Q, Zhang LJ, Zhou YS, Zhong YX, Yu JL, Liu J, Huang CC, Wang YA, Inorg. Chem., 59(16), 11595 (2020)

[54] Mu JC, Liu JF, Ran ZZ, Arif M, Gao M, Wang C, Ji SF, Ind. Eng. Chem. Res., 59(14), 6543 (2020)

[55] Yi KY, Li H, Zhang XT, Zhang L, Inorg. Chem., 60(5), 3172 (2021)

[56] Biswas S, Lan Q, Xie Y, Sun X, Wang Y, ACS Appl. Mater. Interfaces, 3, 3295 (2021)

[57] Yu L, Lu F, Huang X, Liu Y, Li M, Pan H, Wu L, Huang Y, Hu Z, ACS Appl. Mater. Interfaces, 11, 39292 (2019)

[58] Xuan K, Pu Y, Li F, Luo Zhao N, Xiao F, Chin. J. Catal., 40, 553 (2019)

[59] Wang Q, Zhu M, Dai B, Zhang J, Catal. Sci. Technol., 9, 981 (2019)

[60] Xu W, Chen B, Jiang X, Xu F, Chen X, Chen L, Wu J, Fu M, Ye D, J. Hazard. Mater., 387, 122004 (2020)

[61] Li B, Zhu XY, Hu KL, Li YS, Feng JF, Shi JL, Gu JL, J. Hazard. Mater., 302, 57 (2016)

[62] Samy M, Ibrahim MG, Fujii M, Diab KE, ElKady M, Alalm MG, Chem. Eng. J., 406, 127152 (2020)

[63] Ardila-Suarez C, Molina VD, Alem H, Baldovino-Medrano VG, Ramirez-Caballero GE, Phys. Chem. Chem. Phys., 22, 12591 (2020)

[64] Lin S, Zhao Y, Yun YS, ACS Appl. Mater. Interfaces, 10, 28076 (2018)

[65] Wang Y, Li L, Dai P, Yan L, Cao L, Gu X, Zhao X, J. Mater. Chem. A, 5, 22372 (2017)